BUILDING BLOCK HAVING INTERLOCKING FORMATIONS

Description

[0001] The present invention relates to a building block having interlocking formations, to a corner block for use with such a building block and to a construction comprising two or more such blocks in interlocking engagement or one such building block in interlocking engagement with a corner block.

[0002] In the past it has been known to provide a building block comprising a rectangular parallelepiped having three pairs of opposing surfaces in which one of the pairs of opposing surfaces is provided with complimentary interengaging formations while the remaining pairs of opposing surfaces remain substantially planer. An example of one such arrangement is provided in GB-A-2,075,571 which describes a brick suitable for constructing a wall or the like having a major surface which includes, spaced from the edge of the brick, two upraised projections and an opposite major surface which includes, spaced from the edges of the brick, two corresponding recesses, the projections and recesses being arranged so that two identical bricks may be placed end to end with their projections uppermost and a third identical brick placed on top of the other two with one of its recesses accommodating one projection from one of said two bricks and one of its recesses accomodating one projection from the other of said two bricks thereby interlocking the bricks.

[0003] A further example of this kind of arrangement is provided in GB-A-2,185,276 in which there is described a generally rectangular interlocking building block having complimentary projections and recesses on opposite of its major surfaces, the projections being provided by ribs arranged to form at least one upstanding cruciform shape.

[0004] One of the problems with building blocks of this type however is that in order to erect a construction, such as a vertical wall, the blocks must be arranged in one of the limited number of orientations in which their major surfaces are substantially horizontal. This limits not only the design of any constructions incorporating the blocks but also slows down the actual laying process since each block must first be correctly orientated before then being placed in engagement with those already in position.

[0005] In a different field it has been known to provide a paving block having a pair of opposed, parallel, substantially planar surfaces but with side walls and end walls contoured to provide an interengagement with adjacent blocks when laid on a surface. An example of one such arrangement is provided in GB-B-2,120,699 which describes a paving block in which at least one of the parallel surfaces is patterned in relief in a geometrical manner related to the side and end contours of the block and in such a manner that the pattern on one block integrates with the pattern on blocks laid adjacent to the one block.

[0006] Another example of this kind of arrangement is provided in GB-A-2,134,561.

[0007] It is also known to provide a building block comprising a rectangular parallelepiped having three pairs of opposing surfaces in which all six surfaces are provided with complementary interengaging formations. One such example is described in US-A-3,229,439. However, even so when building a construction using the blocks described the number of acceptable orientations in which one block may be placed with respect to another is still limited.

[0008] It is an aim of the present invention to provide a building block capable of interlocking engagement with another such building block in an increased number of desired orientations.

[0009] According to a first aspect of the present invention, there is provided a building block comprising a rectangular parallelepiped having three pairs of opposing surfaces whereby two such building blocks may be arranged with one of a pair of opposing surfaces of a first of the blocks in interlocking engagement with one of any of the three pairs of opposing surfaces of the other of the blocks, characterised in that each of a pair of opposing surfaces is provided with one or more of a respective one of a pair of interlocking formations such that the formations on any given surface are identical, each of said pair of interlocking formations being symmetrical about a rotation of 90°.

[0010] Advantageously the formations provided on one of the surfaces of each pair of opposing surfaces may be spaced apart to the same extent as those provided on the corresponding surface of the other two pairs of opposing surfaces.

[0011] Advantageously each of the formations may comprise a square matrix of projecting and recessed elements. Preferably the projecting and recessed elements may each be in the form of a square based pyramid.

[0012] Advantageously the rectangular parallelepiped may be hollow. The cavity defined by the hollow parallelepiped may contain a heat insulating material or alternatively may be evacuated.

[0013] Advantageously the building block may contain one or more reinforcing elements.

[0014] According to a second aspect of the present invention there is provided a corner block for use with a building block of the type previously described whereby the corner block may be arranged with one of its surfaces in interlocking engagement with one of at least one of each pair of opposing surfaces of said building block, characterised in that the corner block subtends an included angle and is provided with one or more formations on each of its surfaces such that the formations on any given surface are identical and each formation is symmetrical about a rotation of 90°.

[0015] Advantageously each of the formations provided on the surfaces of the corner block may comprise a square matrix of projecting and/or recessed elements. Preferably the projecting and recessed elements may each be in the form of a square based pyramid.

[0016] Preferably each of the formations provided on the surfaces of the corner block may be identical. Preferably each of the formations provided on the surfaces of the corner block may comprise a square matrix of solely recessed elements. Preferably the recessed elements may each be in the form of a square based pyramid.

[0017] Advantageously the corner block may have an included angle that is an integer multiple of 15° within the range from 90° to 165°.

[0018] Advantageously the corner block may be hollow. The cavity defined by the hollow corner block may contain a heat insulating material or alternatively may be evacuated.

[0019] Advantageously the corner block may contain one or more reinforcing elements.

[0020] According to a third aspect of the present invention there is provided a construction comprising a first building block in the form of a rectangular parallelepiped having three pairs of opposing surfaces and either a second such building block or a corner block, the corner block subtending an included angle and being provided with one or more formations on each of its surfaces, the blocks being arranged with one of a pair of opposing surfaces of said first building block in interlocking engagement with either one of any of the three pairs of opposing surfaces of said second block or one of the surfaces of said corner block, characterised in that each of a pair of opposing surfaces of said first building block is provided with one or more of a respective one of a pair of interlocking formations such that the formations on any given surface of said first building block are identical, each of said pair of interlocking formations being symmetrical about a rotation of 90°.

[0021] Advantageously the blocks may be cemented together by means of an airtight sealant.

[0022] A number of embodiments of the various aspects of the present invention will now be described by way of example with reference to the accompanying drawings, in which:-

Figure 1 is a schematic perspective view of a building block in accordance with the first aspect of the present invention;

Figure 2 is a perspective view of a first of the interlocking formations provided on the building block of Figure 1;

Figure 3 is a perspective view of a second and complementary interlocking formation provided on the building block of Figure 1;

Figure 4 is a schematic perspective view of a building block in accordance with a second embodiment of the first aspect of the present invention;

Figure 5 is a schematic perspective view of a building block in accordance with a third embodiment of the first aspect of the present invention;

Figure 6 is a schematic perspective view of a corner block in accordance with the second aspect of the present invention; and

Figure 7 is a perspective view of a third type of formation provided on the corner block of Figure 6.

[0023] Referring to Figure 1 a building block 10 in accordance with a first aspect of the present invention can be seen to comprise a rectangular parallelepiped having three pairs of opposing surfaces 12 and 14, 16 and 18 and 20 and 22. Each pair of opposing surfaces is provided on one of its surfaces 12,16 and 20 with one or more formations 24 while the other surface of each pair of opposing surfaces 14,18 and 22 is provided with a corresponding number of different but complimentary formations 26. The formations 24 and 26, irrespective of type, are equally spaced apart on their respective surfaces. Thus, referring to Figure 1 for example, the upper surface 12 is provided with eight identical formations 24 disposed in two rows of four with each formation spaced a distance D from the nearest neighbouring formation 24 and a distance ½D from the edges 28,30,32 and 34. Likewise, the right hand side surface 16 is provided with a single row of four formations 24 identical not only to each other but also to those provided on the upper surface 12, each again spaced a distance D from the nearest neighbouring formation 24 and a distance ½D from the edges 32,36,38 and 40. Finally as far as the first type of formations 24 are concerned, the near end surface 20 is provided with a single row of two formations 24 which are identical not only to each other but also to those provided on both the upper surface 12 and on the right hand side surface 16. These two formations 24 are also spaced a distance D apart and a distance ½D from the edges 34,40,42 and 44.

[0024] As for the surfaces provided with the complimentary formations 26, the lower surface 14 (not shown) is provided, like its opposing counterpart 12, with eight identical formations 26 disposed in two rows of four. As before, each complimentary formation 26 is spaced a distance D from the nearest neighbouring formation 26 and a distance ½D from the edges 38,42,46 and 48 (only two of which are shown). Likewise, the left hand side surface 18 (not shown), like its opposing counterpart 16, is provided with a single row of four formations 26 identical not only to each other but also to those provided on the lower surface 14, each again being spaced a distance D from the nearest neighbouring formations 26 and a distance ½D from the edges 28,44,46 and 50 (only two of which are shown). Finally, the far end surface 22 (not shown), like its opposing counterpart 20, is provided with a single row of two formations 26 which are again identical not only to each other but also to those provided on both the lower surface 14 and left hand side surface 18. These two complimentary formations 26 are also spaced a distance D apart and a distance ½D from the edges 36,48 and 50 (only two of which are shown).

[0025] The first type of formation 24 is shown in more detail in Figure 2 to comprise a three by three matrix of elements arranged in the form of a square 52 in which the central element 54 is substantially co-planer with the relevant surface of the building block 10. Of the remaining eight elements, four comprise square based pyramids 56 that project from the surface while the other four comprise similarly shaped recesses 58. As shown in Figure 2, the projections and recesses 56 and 58 are disposed alternately around the perimeter of the square 52 with the projections 56 located in the corners.

[0026] One of the complimentary formations 26 is shown in more detail in Figure 3 and again comprises a three by three matrix of elements arranged in the form of a square 60 with the central element 62 substantially co-planer with the relevant surface of the building block 10. As before, of the remaining eight elements, four comprise square based pyramids 64 that project from the surface of the block while the other four comprise similarly shaped recesses 66. As shown in figure 3, the projections and recesses 64 and 66 are disposed alternately around the perimeter of the square 60 with this time the recesses 66 located in the corners.

[0027] In use, in order to arrange two blocks of the type described in mutual interlocking engagement all that is required is to place any one of the surfaces 12,16, or 20 of one of the blocks in abutting relationship with any one of the surfaces 14,18 or 22 of the other of the blocks. In this way one or more of the first type of formations 24 are brought into engagement with a corresponding number of the complimentary formations 26 with the result that the projections 56 of the first type of formations 24 are received within the recesses 66 of the complimentary formations 26 and the projections 64 of the complimentary formations 26 are received within the recesses 58 of the first type of formations 24.

[0028] Since each of the surfaces 12,16, and 20 are mutually orthogonal, as are the opposing surfaces 14,18 and 22, and because both the first type of formation 24 and the complimentary formation 26 are symetric about a rotation of 90° the two blocks may be arranged in mutual interlocking engagement in any desired orientation.

[0029] It will be apparent to those skilled in the art that whilst the blocks have been described as being provided with a specific number of interlocking formations on each of their opposing surfaces, these numbers are given by way of example only and are not intended to limit the number of formations that may be provided on such blocks. For this reasons two further blocks which are provided on their opposing surfaces with a different number of interlocking formations are shown in Figures 4 and 5. By providing blocks having a different number of interlocking formations and which as a result are of different external dimensions, it is possible to achieve a construction having dimensions that are an integral multiple of the shortest dimension of the shortest block. This in turn eliminates the wastage inherent in the cutting of building blocks and allows the use of standard size fitments such as door or window frames.

[0030] It will also be apparent to those skilled in the art that whilst the formations provided on one of the surfaces of each pair of opposing surfaces have been described as being spaced apart to the same extent as those provided on the corresponding surface of the other two pairs of opposing surfaces, this need not necessarily be the case. By spacing the formations apart in this way however two such building blocks may be arranged in interlocking engagement in an increased number of orientations.

[0031] Likewise it will be apparent to those skilled in the art that the formations may comprise an arrangement other than that described above without departing from the scope of the present invention. For example, the formations need not necessarily comprise a square matrix of projecting and recessed elements. Instead the elements could be disposed in the form of one or more concentric circles. Likewise the elements themselves need not necessarily be in the form of a square based pyramid but rather could comprise either projecting or recessed hemispheres.

[0032] In Figure 6 there is shown a corner block 100 capable of being arranged in interlocking engagement with one or more building blocks 10 of the type previously described in order, for example, to turn the corner of a wall. As can be seen, the corner block 100 comprises opposed upper and lower, generally L-shaped surfaces 102 and 104 having interjoining side surfaces 106-116. All eight of the surfaces 102-116, are provided with one or more identical formations 118 which are disposed, in the case of side surfaces 108 and 116, toward the side surface 106 and, in the case of side surfaces 110 and 114, are disposed toward the side surface 112. In the case of the upper and lower surfaces 102 and 104 the formations 118 are again disposed toward the side surfaces 106 and 112 and remote from an imaginary line 120 joining the intersection of side surfaces 108 and 100 with that of side surfaces 114 and 116. As with the building blocks 10 of the type previously described, each of the formations 118 are spaced a distance D from the nearest neighbouring formations and a distance ½D from the edges of the surface concerned.

[0033] One of the formations 118 is shown in more detail in Figure 7 to comprise a three-by-three matrix of elements arranged in the form of square 122 in which the central element 124 is substantially co-planar with the relevant surface of the corner block 100. In contrast with the formations 24 and 26 previously described all eight of the remaining elements comprise recesses 126 in the shape of square based pyramids.

[0034] In use, in order to arrange the corner block 100 in interlocking engagement with one of the building blocks 10 previously described, all that is required is to place any one of the surfaces 12-22 of the building block 10 in abutting relationship with any one of the surfaces 102-116 of the corner block 100. In this way one or more of either the first or second type of formations 24 or 26 are brought into engagement with a corresponding number of the third type of formations 118 with the result that the projections 56 or 64 of the first or second type of formations 24 or 26 are received within the recesses 126 of the third type of formations 118.

[0035] Since both the first and the second type of formations 24 and 26 may engage with the third type of formations 118, the corner block 100 is neither right-handed nor left-handed and may be arranged in interlocking engagement with one or more of the building blocks 10 of the type previously described in any desired orientation.

[0036] It will be apparent to those skilled in the art that whilst the side surfaces 108 and 110 have been shown as subtending an included angle of 90° , as have side surfaces 116 and 114, this need not necessarily be the case. Indeed the corner block 100 may be so designed as to have an included angle of any desired value. Thus, for example, corner blocks may be provided in which the side surfaces 108 and 110 subtend any one of a range of angles at 15° intervals from 90° to 165°. In each case it is anticipated that the angle subtended by the side surfaces 108 and 110 would be equal to that subtended by the side surfaces 114 and 116 although this need not necessarily be the case.

[0037] It will also be apparent to those skilled in the art that whilst the corner block 100 has been shown in Figure 6 as being provided with a specific number of formations on each of its surfaces, these numbers are only shown by way of example and are not intended to limit the number of formations that may be provided on such a corner block.

[0038] It will also be apparent to those skilled in the art that whilst the formations 118 provided on any one of the surfaces of the corner block 100 have been described as being spaced apart to the same extent as those provided on the other surfaces, this again need not necessarily be the case. By spacing the formations 118 apart in this way however, the corner block 100 may be arranged in interlocking engagement with one or more of the building blocks 10 previously described in an increased number of orientations.

[0039] Likewise it will be apparent to those skilled in the art that the formations 118 may comprise an arrangement other than that described without departing from the scope of the present invention. For example, the formations 118 may take the form of one or other of the first or second type of formations 24 or 26. Whilst in some arrangements this would still enable the corner block 100 to be arranged in interlocking engagement with one or more of the building blocks 10 previously described, it would also provide the corner block 100 with a sense of either left or right-handedness and so reduce the number of possible orientations in which the corner block 100 and the said one or more of the building blocks 10 may be arranged.

[0040] One advantage of building blocks and corner blocks that interlock is that they may be used to build a construction having a greater integrity. As a result, less mortar need be used between blocks of this type in order to achieve a construction that has the same integrity as one built of conventional house bricks. Indeed in the case of the blocks described the use of mortar to cement the blocks together may be dispensed with in certain applications to be replaced by the use of a sealant possibly having a natural or synthetic rubber base. This would provide further advantages in that, unlike mortar, there would be no requirement to mix the sealant prior to its application, the application of the sealant to the blocks would be less demanding to the unskilled handy man, and the resulting construction would be airtight since, again unlike mortar, the sealant would have the property of preventing the ingress of air and damp. This last advantage is of particular benefit to the construction of cavity walls as there would no longer be a requirement to fill the cavity with an additional insulating medium to counter the effects of the air and damp that pass through the mortar of conventional constructions.

[0041] The building blocks and corner blocks described may be made of high pressure molded cement in order to achieve the required definition. Alternatively, where the blocks are to find use in the construction of items such as greenhouses or storage sheds, they may be of molded plastics material. In another embodiment the blocks may be of recycled glass.

[0042] Irrespective of the material from which they are formed, the building blocks and corner blocks may be hollow and contain either an insulating material or a vacuum.

[0043] The building blocks and corner blocks may also contain one or more reinforcing rods to provide the blocks with sufficient strength to find use as lintels or supports. Blocks of the type described and equiped with reinforcing rods may also be used in high security constructions such as bank vaults, prisons or military establishments.

[0044] It will be apprarent to those skilled in the art that whilst blocks of the type described may be arranged in mutual interlocking engagement, that engagement is such as to allow some slight movement and as a result the blocks are particularly suitable for use in areas prone to earthquakes or earth tremors.

Claims

1. A building block (10) comprising a rectangular parallelepiped having three pairs of opposing surfaces (12,14; 16,18; 20,22) whereby two such building blocks (10) may be arranged with one of a pair of opposing surfaces (12) of a first of the blocks (10) in interlocking engagement with one (14, 18,22) of any of the three pairs of opposing surfaces (12,14; 16,18; 20,22) of the other of the blocks (10), characterised in that each of a pair of opposing surfaces (12,14; 16,18; 20,22) is provided with one or more of a respective one of a pair of interlocking formations (24,26) such that the formations on any given surface are identical, each of said pair of interlocking formations (24,26) being symmetrical about a rotation of 90°.

2. A building block (10) in accordance with claim 1, wherein the formations (24,26) provided on one of the surfaces of each pair of opposing surfaces (12,14; 16,18; 20,22) are spaced apart to the same extent as those provided on the corresponding surface of the other two pairs of opposing surfaces.

3. A building block (10) in accordance with Claim 1 or Claim 2, wherein each of the formations (24,26) comprises a square matrix of projecting and recessed elements (56,58,64,66).

4. A building block (10) in accordance with Claim 3, wherein the projecting and recessed elements (56,58,64,66) are each in the form of a square based pyramid.

5. A building block (10) in accordance with any preceding claim, wherein the rectangular parallelepiped is hollow.

6. A building block (10) in accordance with Claim 5, wherein the cavity defined by the parallelepiped contains a heat insulating material.

7. A building block (10) in accordance with Claim 5, wherein the cavity defined by the parallelepiped is evacuated.

8. A building block (10) in accordance with any preceding claim and containing one or more reinforcing elements.

9. A corner block (100) for use with a building block (10) in accordance with any of Claims 1 to 8, whereby the corner block (100) may be arranged with one of its surfaces (102-116) in interlocking engagement with one of at least one of each pair of opposing surfaces (12,14;16,18; 20,22) of said building block (10), characterised in that the corner block (100) subtends an included angle and is provided with one or more formations (118) on each of its surfaces (102-116) such that the formations on any given surface are identical and each formation (118) is symmetrical about a rotation of 90°.

10. A corner block (100) in accordance with Claim 9, wherein each of the formations (118) provided on the surfaces thereof (102-116) comprises a square matrix of projecting and/or recessed elements (126).

11. A corner block (100) in accordance with Claim 10, wherein the projecting and recessed elements (126) are each in the form of a square based pyramid.

12. A corner block (100) in accordance with Claim 9, wherein each of the formations (118) provided on the surfaces thereof (102-116) are identical.

13. A corner block (100) in accordance with Claim 12, wherein each of the formations (118) provided on the surfaces thereof (102-116) comprise a square matrix of solely recessed elements (126).

14. A corner block (100) in accordance with Claim 13, wherein the recessed elements (126) are each in the form of a square based pyramid.

15. A corner block (100) in accordance with any of Claims 9 to 14, wherein the included angle is an integer multiple of 15° within the range from 90° to 165°.

16. A corner block (100) in accordance with any of Claims 9 to 17, wherein the corner block (100) is hollow.

17. A corner block (100) in accordance with Claim 16, wherein the corner block (100) contains a heat insulating material.

18. A corner block (100) in accordance with Claim 16, wherein the corner block (100) is evacuated.

19. A corner block (100) in accordance with any of Claims 9 to 18, wherein the corner block (100) contains one or more reinforcing elements.

20. A construction comprising a first building block (10) in the form of a rectangular parallelepiped having three pairs of opposing surfaces (12, 14; 16,18; 20,22) and either a second such building block (10) or a corner block (100), the corner block subtending an included angle and being provided with one or more formations on each of its surfaces, the blocks being arranged with one of a pair of opposing surfaces (12,14; 16,18; 20,22) of said first building block (10) in interlocking engagement with either one of any of the three pairs of opposing surfaces (12,14; 16,18; 20,22) of said second block (10) or one of the surfaces (102-116) of said corner block (100), characterised in that each of a pair of opposing surfaces (12,14; 16,18; 20,22) of said first building block (10) is provided with one or more of a respective one of a pair of interlocking formations (24,26) such that the formations on any given surface of said first building block (10) are identical, each of said pair of interlocking formations (24,26) being symmetrical about a rotation of 90°.

21. A construction in accordance with Claim 20, wherein the blocks are cemented together by means of an airtight sealant.

Ansprüche

1. Baublock (10), bestehend aus einem rechtwinkeligen Parallelepiped mit drei Paaren von gegenüberliegenden Flächen (12, 14; 16, 18; 20, 22), wobei zwei solche Baublöcke (10) so angeordnet werden können, daß eine von zwei gegenüberliegenden Flächen (12) eines ersten Blockes (10) in formschlüssigem Eingriff mit einer (14, 18, 22) Fläche eines beliebigen der drei Paare von gegenüberliegenden Flächen (12, 14; 16, 18; 20, 22) des anderen Blocks (10) steht, dadurch gekennzeichnet, daß jede von zwei gegenüberliegenden Flächen (12, 14; 16, 18; 20, 22) einfach oder mehrfach mit der jeweils einen Form eines Paares von ineinandergreifenden Formen (24, 26) versehen ist derart, daß die auf jeweils einer gegebenen Fläche vorhandenen Formen identisch sind, wobei jedes Paar von ineinandergreifenden Formen (24, 26) bezüglich einer Drehung um 90° symmetrisch ist.

2. Baublock (10) nach Anspruch 1, bei dem die auf einer Fläche jedes Paares von gegenüberliegenden Flächen (12, 14; 16, 18; 20, 22) vorgesehenen Formen (24, 26) den gleichen Abstand voneinander haben wie die auf der entsprechenden Fläche der anderen zwei Paare von gegenüberliegenden Flächen vorgesehenen Formen.

3. Baublock (10) nach Anspruch 1 oder 2, bei dem jede der Formen (24, 26) aus einer quadratischen Matrix von vorspringenden und vertieften Elementen (56, 58, 64, 66) besteht.

4. Baublock (10) nach Anspruch 3, bei dem die vorspringenden und vertieften Elemente (56, 58, 64, 66) jeweils die Form einer Pyramide mit quadratischer Grundfläche haben.

5. Baublock (10) nach einem vorangehenden Anspruch, bei dem das rechtwinkelige Parallelepiped hohl ist.

6. Baublock (10) nach Anspruch 5, bei dem der von dem Parallelepiped umgrenzte Hohlraum ein wärmeisolierendes Material enthält.

7. Baublock (10) nach Anspruch 5, bei dem der von dem Parallelepiped umgrenzte Hohlraum evakuiert ist.

8. Baublock (10) nach einem vorangehenden Anspruch, der ein oder mehrere Verstärkungselemente enthält.

9. Eckblock (100) zur Verwendung mit einem Baublock (10) nach einem der Ansprüche 1 bis 8, wobei der Eckblock (10) so angeordnet werden kann, daß eine seiner Flächen (102 bis 116) in formschlüssigem Eingriff mit der einen Fläche mindestens eines beliebigen Paares von gegenüberliegenden Flächen (12, 14; 16, 18; 20, 22) des Baublocks (10) steht, dadurch gekennzeichnet, daß der Eckblock (100) einen eingeschlossenen Winkel begrenzt und auf jeder seiner Flächen (102 bis 116) mit einer oder mehreren Formen (118) versehen ist, derart, daß die auf jeweils einer gegebenen Fläche vorgesehenen Formen identisch sind und jede Form (118) bezüglich einer Drehung um 90° symmetrisch ist.

10. Eckblock (100) nach Anspruch 9, bei dem jede der auf den Flächen (102 bis 116) vorgesehenen Formen (118) aus einer quadratischen Matrix von vorspringenden und/oder vertieften Elementen (126) besteht.

11. Eckblock (100) nach Anspruch 10, bei dem die vorspringenden und vertieften Elemente (126) jeweils die Form einer Pyramide mit quadratischer Grundfläche haben.

12. Eckblock (100) nach Anspruch 9, bei dem alle auf seinen Flächen (102 bis 116) vorgesehenen Formen (118) identisch sind.

13. Eckblock (100) nach Anspruch 12, bei dem jede der auf seinen Flächen (102 bis 114) vorgesehenen Formen (118) aus einer quadratischen Matrix aus ausschließlich vertieften Elementen (126) besteht.

14. Eckblock (100) nach Anspruch 13, bei dem die vertieften Elemente (126) jeweils die Form einer Pyramide mit quadratischer Grundfläche haben.

15. Eckblock (100) nach einem der Ansprüche 9 bis 14, bei dem der eingeschlossene Winkel ein ganzzahliges Vielfaches von 15° ist und im Bereich von 90° bis 165° liegt.

16. Eckblock (100) nach einem der Ansprüche 9 bis 17, bei dem der Eckblock (100) hohl ist.

17. Eckblock (100) nach Anspruch 16, bei dem der Eckblock (100) ein wärmeisolierendes Material enthält.

18. Eckblock (100) nach Anspruch 16, bei dem der Eckblock (100) evakuiert ist.

19. Eckblock (100) nach einem der Ansprüche 9 bis 16, bei dem der Eckblock (100) ein oder mehrere Verstärkungselemente enthält.

20. Aufbau aus einem ersten Baublock (10) in Form eines rechtwinkeligen Parallelepipeds mit drei Paaren von gegenüberliegenden Flächen (12, 14; 16, 18; 20, 22) und entweder einem zweiten derartigen Baublock (10) oder einem Eckblock (100), wobei der Eckblock einen eingeschlossenen Winkel definiert und auf jeder seiner Flächen mit einer oder mehreren Formen versehen ist, wobei die Blöcke so angeordnet sind, daß die eine Fläche eines Paares von gegenüberliegenden Flächen (12, 14; 16, 18; 20, 22) des ersten Baublocks (10) in formschlüssigen Eingriff mit einer Fläche eines beliebigen der drei Paare von gegenüberliegenden Flächen (12, 14; 16, 18; 20, 22) des zweiten Blocks (10) oder mit einer der Flächen (102 bis 116) des Eckblocks (100) steht, dadurch gekennzeichnet, daß jedes Paar von gegenüberliegenden Flächen (12, 14; 16, 18; 20, 22) des ersten Baublocks (10) einfach oder mehrfach mit jeweils der einen Form eines Paares von ineinandergreifenden Formen (24, 26) versehen ist, derart, daß die Formen auf jeweils einer gegebenen Fläche des ersten Baublocks (10) identisch sind, wobei jedes Paar von ineinandergreifenden Formen (24, 26) bezüglich einer Drehung um 90° symmetrisch ist.

21. Aufbau nach Anspruch 20, bei dem die Blöcke mittels eines luftdichten Dichtungsmittels aneinander zemmentiert sind.

Revendications

1. Bloc (10) de construction comprenant un parallélépipède rectangle possédant trois paires de surfaces opposées (12, 14 ; 16, 18 ; 20, 22), tel que deux blocs de construction (10) peuvent être disposés de manière que l'une des surfaces d'une paire de surfaces opposées (12) d'un premier des blocs (10) coopère par emboîtement avec une surface (14, 18, 22) de l'une quelconque des trois paires de surfaces opposées (12, 14 ; 16, 18 ; 20, 22) de l'autre des blocs (10), caractérisé en ce que chaque surface d'une paire de surfaces opposées (12, 14 ; 16, 18 ; 20, 22) possède un ou plusieurs organes conformés d'une paire respective d'organes conformés d'emboîtement (24, 26) afin que les organes conformés d'une surface déterminée quelconque soient identiques, chaque organe de la paire d'organes conformés d'emboîtement (24, 26) étant symétrique par rotation de 90°.

2. Bloc (10) de construction selon la revendication 1, dans lequel les organes conformés (24, 26) disposés sur l'une des surfaces de chaque paire de surfaces opposées (12, 14 ; 16, 18 ; 20, 22) ont des espacements égaux à ceux qui sont formés sur la surface correspondante des deux autres paires de surfaces opposées.

3. Bloc (10) de construction selon la revendication 1 ou 2, dans lequel chaque organe conformé (24, 26) comporte une matrice carrée d'éléments en saillie et en creux (56, 58, 64, 66).

4. Bloc (10) de construction selon la revendication 3, dans lequel les éléments en saillie et en creux (56, 58, 64, 66) sont chacun sous forme d'une pyramide à base carrée.

5. Bloc (10) de construction selon l'une quelconque des revendications précédentes, dans lequel le parallélépipède rectangle est creux.

6. Bloc (10) de construction selon la revendication 5, dans lequel la cavité délimitée par le parallélépipède contient un matériau d'isolation thermique.

7. Bloc (10) de construction selon la revendication 5, dans lequel la cavité délimitée par le parallélépipède est évacuée.

8. Bloc (10) de construction selon l'une quelconque des revendications précédentes, contenant un ou plusieurs éléments d'armature.

9. Bloc (100) de coin destiné à être utilisé avec un bloc (10) de construction selon l'une quelconque des revendications 1 à 8, tel que le bloc (100) de coin peut être placé de manière que l'une de ses surfaces (102-116) coopère par emboîtement avec au moins une surface de l'une des paires de surfaces opposées (12, 14 ; 16, 18 ; 20, 22) du bloc (10) de construction, caractérisé en ce que le bloc (100) de coin sous-tend un angle inclus et a un ou plusieurs organes conformés (118) sur chacune de ses surfaces (102-116) afin que les organes conformés d'une surface quelconque déterminée soient identiques et que chaque organe conformé (118) soit symétrique par rotation de 90°.

10. Bloc (100) de coin selon la revendication 9, dans lequel chaque organe conformé (118) placé sur les surfaces (102-116) forme une matrice carrée d'éléments en saillie et/ou en creux (126).

11. Bloc (100) de coin selon la revendication 10, dans lequel les éléments en saillie et en creux (126) sont chacun sous forme d'une pyramide à base carrée.

12. Bloc (100) de coin selon la revendication 9, caractérisé en ce que tous les organes conformés (118) placés sur les surfaces (102-116) sont identiques.

13. Bloc (100) de coin selon la revendication 12, dans lequel tous les organes conformés (118) placés sur les surfaces (112-116) forment une matrice carrée d'éléments uniquement en creux (126).

14. Bloc (100) de coin selon la revendication 13, dans lequel les éléments en creux (126) sont chacun sous forme d'une pyramide à base carrée.

15. Bloc (100) de coin selon l'une quelconque des revendications 9 à 14, dans lequel l'angle inclus est un multiple entier de 15° compris entre 90° et 165°.

16. Bloc (100) de coin selon l'une quelconque des revendications 9 à 17, dans lequel le bloc de coin (100) est creux.

17. Bloc (100) de coin selon la revendication 16, dans lequel le bloc (100) de coin contient un matériau d'isolation thermique.

18. Bloc (100) de coin selon la revendication 16, dans lequel le bloc (100) de coin est évacué.

19. Bloc (100) de coin selon l'une quelconque des revendications 9 à 18, dans lequel le bloc (100) de coin contient un ou plusieurs éléments d'armature.

20. Construction comprenant un premier bloc (10) de construction sous forme d'un parallélépipède rectangle ayant trois paires de surfaces opposées (12, 14 ; 16, 18 ; 20, 22) et soit un second bloc de construction analogue (10), soit un bloc de coin (100), le bloc de coin sous-tendant un angle inclus et ayant un ou plusieurs organes conformés à chacune de ses surfaces, les blocs étant disposés de manière qu'une surface d'une paire de surfaces opposées (12, 14 ; 16, 18 ; 20, 22) du premier bloc de construction (10) soit en coopération par emboîtement avec une surface de l'une quelconque des trois paires de surfaces opposées (12, 14 ; 16, 18 ; 20, 22) du second bloc (10) ou l'une des surfaces (102-116) du bloc de coin (100), caractérisée en ce que chaque surface d'une paire de surfaces opposées (12, 14 16, 18 ; 20, 22) du premier bloc de construction (10) comporte un ou plusieurs organes respectifs d'une paire d'organes conformés d'emboîtement (24, 26) afin que les organes conformés d'une surface déterminée quelconque du premier bloc de construction (10) soient identiques, chaque organe de la paire d'organes conformés d'emboîtement (24, 26) étant symétrique par rotation de 90°.

21. Construction selon la revendication 20, dans laquelle les blocs sont cimentés par un matériau hermétique d'étanchéité.

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